Biagioni B J, Tam S, Chen Y-W R, Sin D D, Carlsten C
Division of Respiratory Medicine, Department of Medicine, University of British Columbia, Vancouver, BC, Canada.
Center for Heart Lung Innovation, University of British Columbia, Vancouver, BC, Canada.
Clin Exp Allergy. 2016 Sep;46(9):1206-13. doi: 10.1111/cea.12732. Epub 2016 May 12.
Air pollution is a major cause of global morbidity and mortality. Air pollution and aeroallergens aggravate respiratory illness, but the variable effects of air pollutants and allergens in the lung are poorly understood.
To determine the effects of diesel exhaust (DE) and bronchial allergen challenge as single and dual exposures on aspects of innate immunity in the airway as reflected by surfactant protein D (SPD), myeloperoxidase (MPO) and club (Clara) cell secretory protein 16 (CC16) in 18 atopic individuals.
In this double-blind, randomized crossover study, atopic individuals were exposed to DE or filtered air, followed by endobronchial allergen or saline 1 hour after inhalational exposure. Bronchoalveolar lavage, bronchial washings, nasal lavage and blood samples were obtained 48 hours after exposures and assayed for CC16, MPO and SPD by ELISA.
In bronchial samples, the concentration of SPD increased from 53.3 to 91.8 ng/mL after endobronchial allergen, with no additional contribution from DE. MPO also increased significantly in response to allergen (6.8 to 14.7 ng/mL), and there was a small additional contribution from exposure to DE. The concentration of CC16 decreased from 340.7 to 151.0 ng/mL in response to DE, with minor contribution from allergen. These changes were not reflected in nasal lavage fluid or plasma samples.
These findings suggest that allergen and DE variably influence different aspects of the innate immune response of the lung. SPD and MPO, known markers of allergic inflammation in the lung, are strongly increased by allergen while DE has a minor effect therein. DE induces a loss of CC16, a protective protein, while allergen has a minor effect therein. Results support site- and exposure-specific responses in the human lung upon multiple exposures.
空气污染是全球发病和死亡的主要原因。空气污染和空气过敏原会加重呼吸道疾病,但人们对空气污染物和过敏原在肺部的不同作用了解甚少。
确定柴油废气(DE)和支气管过敏原激发作为单一和双重暴露对18名特应性个体气道固有免疫方面的影响,这通过表面活性蛋白D(SPD)、髓过氧化物酶(MPO)和支气管(克拉拉)细胞分泌蛋白16(CC16)来反映。
在这项双盲、随机交叉研究中,特应性个体暴露于DE或过滤空气中,吸入暴露1小时后进行支气管内过敏原或生理盐水激发。暴露48小时后采集支气管肺泡灌洗、支气管冲洗、鼻腔灌洗和血液样本,并通过酶联免疫吸附测定法检测CC16、MPO和SPD。
在支气管样本中,支气管内过敏原激发后SPD浓度从53.3 ng/mL增加到91.8 ng/mL,DE没有额外影响。MPO对过敏原激发也有显著增加(从6.8 ng/mL增加到14.7 ng/mL),暴露于DE有少量额外影响。CC16浓度因DE从340.7 ng/mL降至151.0 ng/mL,过敏原影响较小。这些变化未在鼻腔灌洗液或血浆样本中体现。
这些发现表明过敏原和DE对肺部固有免疫反应的不同方面有不同影响。SPD和MPO是肺部过敏性炎症的已知标志物,过敏原可使其显著增加,而DE作用较小。DE导致保护性蛋白CC16减少,过敏原影响较小。结果支持人类肺部在多次暴露时的部位和暴露特异性反应。
